对加热和加速太阳风的大振幅阿尔芬波的现场观测

arXiv - PHYS - Space Physics Pub Date : 2024-08-30 DOI:arxiv-2409.00267

Yeimy J. Rivera, Samuel T. Badman, Michael L. Stevens, Jaye L. Verniero, Julia E. Stawarz, Chen Shi, Jim M. Raines, Kristoff W. Paulson, Christopher J. Owen, Tatiana Niembro, Philippe Louarn, Stefano A. Livi, Susan T. Lepri, Justin C. Kasper, Timothy S. Horbury, Jasper S. Halekas, Ryan M. Dewey, Rossana De Marco, Stuart D. Bale

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引用次数: 0

摘要

离开日冕后，太阳风继续加速和冷却，但比自由膨胀的绝热气体所预期的要慢。我们利用帕克太阳探测器和太阳轨道器宇宙飞船的现场测量来研究太阳风流穿过内对流层时的情况。观测结果表明，在日冕外缘和金星轨道附近的等离子体被加热和加速，并出现了大振幅的Alfv\'en波。Alfv\'en波是行星际磁场中的扰动，它能传递能量。我们的计算表明，Alfv\'en波产生的阻尼和机械功足以为内日光层的快速太阳风的加热和加速提供动力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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In situ observations of large amplitude Alfvén waves heating and accelerating the solar wind

After leaving the Sun's corona, the solar wind continues to accelerate and cools, but more slowly than expected for a freely expanding adiabatic gas. We use in situ measurements from the Parker Solar Probe and Solar Orbiter spacecrafts to investigate a stream of solar wind as it traverses the inner heliosphere. The observations show heating and acceleration of the the plasma between the outer edge of the corona and near the orbit of Venus, in connection to the presence of large amplitude Alfv\'en waves. Alfv\'en waves are perturbations in the interplanetary magnetic field that transport energy. Our calculations show the damping and mechanical work performed by the Alfv\'en waves is sufficient to power the heating and acceleration of the fast solar wind in the inner heliosphere.

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arXiv - PHYS - Space Physics

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